TWM615759U - Gas production system - Google Patents

Abstract

This creation is about a gas production system, mainly through two electrode plates placed in a first electrolyte, using the principle of voltaic batteries to generate electricity, so that the location of this creation is not affected by the environment, and while generating electricity In this creation, an air chamber is jointly defined by arranging a frame wall on the top of the inner shell, and then through the vent hole on the top of the inner shell, the inside of the inner shell is connected to the air chamber. As a result, The gas generated during the electrical process can flow into the gas chamber, and then the first gas collecting unit can be used to extract the gas for storage and utilization.

Description

Gas manufacturing system

This creation is related to gas manufacturing technology, especially a gas manufacturing system.

According to the continuous advancement of human science and technology, the demand for electricity has also increased. At present, power facilities include thermal power generation, wind power generation, hydropower generation, nuclear power generation, and solar power generation. Among them, thermal power generation and nuclear power generation will produce harmful substances during the power generation process, which will pollute the earth's environment. In order to protect the earth's environment, governments in various countries currently tend to use green energy power with less pollutants.

Please refer to Taiwan Patent No. M574634 "Wave Power Generation System". The patent discloses that a first column is provided on the seabed, and the upper end of the first column is provided with a first steel rope pulley, and a second column is erected on the land. A second steel rope wheel is provided on the second column, and then the two ends of a steel cable are respectively connected to a floating bucket floating on the sea surface and hanging on a balance weight on one side of the second column, and the steel cable is wound around A power generation module is installed on the first and second steel rope sheaves, and on the land between the first and second columns. The power generation module can be pulled by the steel cable to generate rotational kinetic energy, and The above-mentioned rotational kinetic energy is converted into electric energy for use, so that the kinetic energy of pulling the floating bucket to move when the waves advance and retreat can be converted into electric energy to obtain clean and pollution-free energy.

Although the patent can achieve the purpose of green power generation, the disadvantage of this power structure is that it fails to properly utilize the gas generated during the power generation process. So, for this kind of power system problem, the creator believes that it is necessary to improve it, and began to think about its improvement methods.

In view of the shortcomings of the prior art, the creator of the present invention provides a solution to a gas manufacturing system, including: a gas manufacturing system, including: a power module, including: a housing: inside A space can accommodate the first electrolyte; a frame enclosure: set on the outside of the top of the inner shell for a common frame to enclose an air chamber, the top wall of the shell is provided with a vent hole for the inside of the shell and The air chamber communicates; a power unit: set in the housing, the power unit has a first electrode plate and a second electrode plate arranged at intervals, the power unit further includes a power cord, and the power cords are respectively The first electrode plate and the second electrode plate are electrically connected; a power regulating storage unit: electrically connected to the power cord, the power regulating storage unit can be electrically connected to a load, and the power regulating storage unit can be used to flow through The electric power is adjusted and output to the load or stored; a first gas gathering unit: it can extract the gas in the gas chamber and store it in a gas gathering container. .

This creation uses the first electrode sheet, the second electrode sheet, the power cord, and the first electrolyte to form a voltaic battery, so that the creation can continuously generate electricity, and has a stable power output. Through regular replacement of the The first electrolyte allows this creation to continuously generate electricity for up to 24 hours a day. In this way, gas will be generated during the process of generating electricity, and these gases will flow into the gas chamber and then be collected by the first gas collecting unit The gas in the gas chamber is stored and utilized through the gas collection container. At the same time, the construction field of this creation is not limited. The field can be the seaside, outdoor open space, or even indoors (such as inside a house, ship), and tanks can be built to generate gas.

(A): The first electrolyte

(C): The first tank

(C1): The second tank

(D): Load

(2): Fixed parts

(3): Power module

(31): Shell

(311): Outlet

(312): first inlet

(32): Power unit

(321): First electrode sheet

(322):Second electrode sheet

(323): Power cord

(34): Frame body

(341): Vent

(35): Air chamber

(4): Power conditioning storage unit

(5): The first purification unit

(6): The second purification unit

(7): The first gas gathering unit

(71): Gas purification unit

(72): The first pressurizing unit

(73): Second pressurizing unit

(8): Gas collection container

(91): Drainage unit

(92): Water injection unit

(0): Electrolysis unit

(01):Second gas gathering unit

The first picture is a schematic diagram of this creation

The second picture is a schematic diagram of the shell of this creation

The third figure is a schematic diagram of the connection of each component of this creation

With the aid of the diagrams, the structure, characteristics and embodiments of the new creation are explained below, so that your examiners can have a better understanding of the creation of the new model.

Please refer to the first figure. The present invention relates to a gas manufacturing system, including: a power module (3) including:

One shell (31):

Please refer to the second figure, the housing (31) has a space (31) for accommodating the first electrolyte (A), and the housing (31) can directly remove the first electrolyte by opening the lid. (A) Injecting or pouring, or through the bottom of the ring side of the housing (31) is provided with a water outlet (311), and the housing (31) is provided with a water inlet (312) above the water outlet (311) , When the shell (31) is placed in the first tank (C) filled with the first electrolyte, the water level of the first electrolyte (A) in the first tank (C) can be penetrated, The first electrolyte (A) is automatically discharged or replenished.

A frame body (34) is further provided on the outside of the shell (31) for a common frame to enclose an air chamber (35), and the top wall of the shell (31) is provided with a vent hole (341) for the shell The inside of the body (31) communicates with the air chamber (35). Moreover, a waterproof connection component is preferably used between the frame body (34) and the casing (31) to form an operative connection between the two. In this way, the first electrolyte (A) is not easy to separate. The gap penetrates into the air chamber (35), and at the same time, when the electrode plates are to be replaced, the frame enclosure (34) and the casing (31) can also be disassembled for treatment.

One power unit (32):

Please refer to the first figure in conjunction with the second and third figures. The power unit (32) is arranged in the housing (31), and the power unit (32) has a first electrode plate ( 321), and a second electrode plate (322), and the first electrode plate (321) and the second electrode plate (322) are preferably separated by an insulator (such as a PU plate), and a power supply The wires (323) are respectively electrically connected to the first electrode plate (321) and the second electrode plate (322). Among them, in order for this creation to produce electricity smoothly, the activity of the materials made of the first electrode plate (321) and the second electrode plate (322) must be high and low. For example, one is made of graphite and the other is made of graphite. Aluminum, or other types of metal, because the materials of the first electrode plate (321) and the second electrode plate (322) are not within the scope of this creation, regardless of the first electrode plate (321) or the second electrode plate (322). What is the material of the electrode plate (322)? Anything that can be used for the first electrode plate (321), the second electrode plate (322), the power cord (323), and the sea water (A) can use the voltaic battery. The principles that generate electricity are within the scope of this creation.

In addition, this creation can increase the number of power units (3) or increase the number of electrode plates (321, 322) according to demand, and obtain power that meets the demand in series or parallel. Moreover, when the electrode plates (321, 322) are oxidized due to use, they can also be reduced through related chemical engineering, so that the electrode plates (321, 322) of this creation can be reused, which is more in line with green energy and environmental protection. The goal.

A power conditioning storage unit (4):

Please refer to the third figure, the power conditioning storage unit (4) is electrically connected to the power cord (323), and the power conditioning storage unit (4) can be electrically connected to a load (D). The power regulating storage unit (4) can be used to regulate and output the flowing power (such as step-up/down, three-phase current adjustment, etc.) to the load (D), or directly store the power.

A first gas gathering unit (7):

Please refer to the third figure, the first gas collecting unit (7) can communicate with the gas chamber (35) for extracting the gas in the gas chamber (35) and storing the gas in a gas collecting unit Inside the container (8). Since the first electrolyte (A) is preferably sea water or salt water, the gas is preferably mainly hydrogen. In addition, since the gas extracted by the first gas gathering unit (7) is not a single gas, it may also contain other impurities. Therefore, the first gas gathering unit (7) will first send the gas to a gas purification unit. After the unit (71) undergoes purification treatment, it is stored in the gas collection container (8), and in order to increase the gas collection capacity of the gas collection container (8), the gas collection container (8) and the gas purification unit (71) A first pressurizing unit (72) is preferably provided in between, and the first pressurizing unit (72) can pressurize the gas and store it in the gas collection container (8) In addition, when the gas collecting container (8) outputs gas, it is preferable to pressurize the gas through a second pressurizing unit (73) and then output the gas.

In addition, in order to produce gas more effectively, this creation will use the unused power of the load (D) to produce gas. For this reason, an electrolysis unit (0) is provided, and the electrolysis unit (0) is electrically connected to the power. Regulate the storage unit (4), the electrolysis unit (0) can be used to electrolyze a second electrolyte, and the material of one of the electrode ends of the electrolysis unit (0) is preferably selected from graphite or titanium alloy, regardless of the electrolysis What is the material of the electrode end of the unit? Anyone that can produce gas for this creation, especially the one that can produce hydrogen, is within the scope of this creation. In addition, the second electrolyte is arranged in a second tank (C1). A second gas gathering unit (01) communicates with the gas purification unit (71), and the second gas gathering unit (01) can collect the gas generated by the electrolysis unit (0) and send it to the gas purification unit ( 71) After purification treatment, it is stored in the gas collection container (8). In this way, this creation can further improve the overall gas production efficiency.

The advantages of this creation are:

1. This creation is based on the principle of a voltaic battery, through the first electrode sheet (321), the second electrode sheet (322), the power cord (323) and the first electrolyte (A) to form a large-scale voltaic The battery can continuously generate electricity for this creation. The electricity generation time can be up to 24 hours a day, and it has a stable electricity production.

2. In addition to generating electricity, this creation also flows through the air chamber (35) and the vent hole (341) to flow the gas generated during the electricity generation process into the air chamber (35), when the first electrolyte (A) When sea water or salt water is used, the gas is mainly hydrogen, which is then extracted through the first gas gathering unit (7), and these gases are stored in the gas gathering container (8).

3. Please refer to the first picture. This creation can be used anywhere, such as directly built on the coast, using sea water as the first electrolyte (A) to generate electricity, or inside the hull Or a first tank (C) is installed inside the building to install this creation, and the first tank (C) is injected with seawater or salt is added to the water to form salt water as the first electrolyte (A). Electricity production.

Please refer to the second and third pictures. When this creation is built in the first tank (C) and the first electrolyte (A) needs to be replaced, it needs to pass through a drainage unit (91) After the first electrolyte (A) is discharged from the first electrolyte (A) in the first tank (C), the first electrolyte (A) is injected into the first through a water injection unit (92) In a tank body (C), and the first tank body (C) is provided with a fixing member (2) to fix the position of the power module (3), so that the shell can pass through the first tank body (C). The water level of the first electrolyte (A) in a tank (C) is high and low, and the water outlet (311) and the water inlet (312) are used to automatically discharge or supplement the first electrolyte (A). In addition, the drainage unit (91) can also dispose a drainage port at the bottom of the first tank body (C), drain the first electrolyte (A) through the drainage port, and then close the drainage port before using the The water injection unit (91) injects the first electrolyte (A) into the first tank (C). In addition, in order to prevent microorganisms or other substances in the first electrolyte (A) from affecting the overall gas and electricity production efficiency, when the water injection unit (91) injects the first electrolyte (A) into the first tank Before the body (C), the first electrolyte (A) is purified through a first purification unit (5). Similarly, the drainage unit (91) is preferably the first electrolyte (A) After being processed by a second purification unit (6), it is discharged into seawater. It is worth mentioning that the second tank body (C1) also needs to be discharged and replenished after a period of electrolysis, which can be done through the water injection unit (92) and the drainage unit (91) at this time.

In summary, the creation of this new model is indeed in line with industrial applicability, and has not been seen in publications or publicly used before the application, and has not been known to the public, and it is non-obvious and easy to know, and meets the requirements of patentability. It is patented according to law. Application.

However, the above report is a preferred embodiment of the new type creation in the industry, and all the equal changes made in accordance with the scope of the patent application for the new type creation belong to the scope of the subject matter of this case.

(A): The first electrolyte

(C): The first tank

(D): Load

(2): Fixed parts

(3): Power module

(31): Shell

(32): Power unit

(321): First electrode sheet

(322):Second electrode sheet

(323): Power cord

(34): Frame body

(35): Air chamber

(4): Power conditioning storage unit

(91): Drainage unit

(92): Water injection unit

(0): Electrolysis unit

Claims (7)

A gas manufacturing system includes: a power module including: a shell: a space is provided inside for accommodating the first electrolyte; a frame body: arranged on the outer side of the top of the inner shell for a common frame to enclose a gas The top wall of the housing is provided with a vent hole for the inside of the housing to communicate with the air chamber; a power unit: located in the housing, the power unit has a first electrode plate arranged at intervals, and a The second electrode plate, the power unit further includes a power cord, and the power cord is electrically connected to the first electrode plate and the second electrode plate respectively; a power regulating storage unit: electrically connected to the power cord, the power regulating The storage unit can be electrically connected to a load, and the power regulating storage unit can be used to regulate and output the electricity flowing through to the load or store it; a first gas gathering unit can be used to extract the gas in the gas chamber and store it In a gas container. The gas production system according to the first item of the scope of patent application, wherein the first electrolyte is sea water or salt water, and the gas is hydrogen; a gas purification unit is further provided between the first gas collection unit and the gas collection container , The gas purification unit can be used to purify the gas before storing it in the gas collection container. The gas production system described in item 2 of the scope of patent application, wherein an electrolysis unit is further provided, and the electrolysis unit is electrically connected to the power regulation storage unit, and the electrolysis unit is capable of electrolyzing a second electrolyte; The gas gathering unit communicates with the gas purification unit, and the second gas gathering unit can be used for collecting the gas generated by the electrolysis unit and transporting it to the gas purification unit. Such as the gas manufacturing system described in item 3 of the scope of patent application, wherein the power module can be installed in A tank body is further provided with a water injection unit and a drainage unit, the water injection unit can be used for the first electrolyte to be processed by a first purification unit and then injected into the tank; the drainage unit can be used for the first electrolyte A second purification unit is discharged from the tank body for purification and then discharged; a fixing member is arranged in the tank body, the casing is connected to the fixing member, and the top wall of the casing is higher than the first electrolysis unit in the tank body The height of the liquid level. The gas manufacturing system according to item 4 of the scope of patent application, wherein the material of one of the first electrode plate or the second electrode plate is selected from graphite and aluminum; the material of one of the electrolysis ends of the electrolysis unit is selected From graphite or titanium alloy. In the gas manufacturing system described in item 5 of the scope of patent application, a waterproof connection component is used to form an operative connection between the frame body and the top of the inner casing. The gas manufacturing system described in item 6 of the scope of patent application, wherein a first pressurizing unit is further provided between the gas purification unit and the gas collecting container, and the first pressurizing unit can be used to output the gas purification unit The gas is pressurized and delivered to the gas collection container for storage; the gas collection container is connected to a second pressurizing unit, and the second pressurization unit can pressurize and output the gas in the gas collection container.

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